use crate::deriving::path_std; use crate::deriving::generic::*; use crate::deriving::generic::ty::*; use rustc_data_structures::thin_vec::ThinVec; use syntax::ast::{self, Ident}; use syntax::ast::{Expr, MetaItem}; use syntax::ext::base::{Annotatable, ExtCtxt}; use syntax::ext::build::AstBuilder; use syntax::ptr::P; use syntax_pos::{DUMMY_SP, Span}; pub fn expand_deriving_debug(cx: &mut ExtCtxt<'_>, span: Span, mitem: &MetaItem, item: &Annotatable, push: &mut dyn FnMut(Annotatable)) { // &mut ::std::fmt::Formatter let fmtr = Ptr(Box::new(Literal(path_std!(cx, fmt::Formatter))), Borrowed(None, ast::Mutability::Mutable)); let trait_def = TraitDef { span, attributes: Vec::new(), path: path_std!(cx, fmt::Debug), additional_bounds: Vec::new(), generics: LifetimeBounds::empty(), is_unsafe: false, supports_unions: false, methods: vec![MethodDef { name: "fmt", generics: LifetimeBounds::empty(), explicit_self: borrowed_explicit_self(), args: vec![(fmtr, "f")], ret_ty: Literal(path_std!(cx, fmt::Result)), attributes: Vec::new(), is_unsafe: false, unify_fieldless_variants: false, combine_substructure: combine_substructure(Box::new(|a, b, c| { show_substructure(a, b, c) })), }], associated_types: Vec::new(), }; trait_def.expand(cx, mitem, item, push) } /// We use the debug builders to do the heavy lifting here fn show_substructure(cx: &mut ExtCtxt<'_>, span: Span, substr: &Substructure<'_>) -> P { // build fmt.debug_struct().field(, &)....build() // or fmt.debug_tuple().field(&)....build() // based on the "shape". let (ident, vdata, fields) = match substr.fields { Struct(vdata, fields) => (substr.type_ident, *vdata, fields), EnumMatching(_, _, v, fields) => (v.node.ident, &v.node.data, fields), EnumNonMatchingCollapsed(..) | StaticStruct(..) | StaticEnum(..) => cx.span_bug(span, "nonsensical .fields in `#[derive(Debug)]`"), }; // We want to make sure we have the ctxt set so that we can use unstable methods let span = span.with_ctxt(cx.backtrace()); let name = cx.expr_lit(span, ast::LitKind::Str(ident.name, ast::StrStyle::Cooked)); let builder = Ident::from_str("debug_trait_builder").gensym(); let builder_expr = cx.expr_ident(span, builder.clone()); let fmt = substr.nonself_args[0].clone(); let mut stmts = vec![]; match vdata { ast::VariantData::Tuple(..) | ast::VariantData::Unit(..) => { // tuple struct/"normal" variant let expr = cx.expr_method_call(span, fmt, Ident::from_str("debug_tuple"), vec![name]); stmts.push(cx.stmt_let(DUMMY_SP, true, builder, expr)); for field in fields { // Use double indirection to make sure this works for unsized types let field = cx.expr_addr_of(field.span, field.self_.clone()); let field = cx.expr_addr_of(field.span, field); let expr = cx.expr_method_call(span, builder_expr.clone(), Ident::from_str("field"), vec![field]); // Use `let _ = expr;` to avoid triggering the // unused_results lint. stmts.push(stmt_let_undescore(cx, span, expr)); } } ast::VariantData::Struct(..) => { // normal struct/struct variant let expr = cx.expr_method_call(span, fmt, Ident::from_str("debug_struct"), vec![name]); stmts.push(cx.stmt_let(DUMMY_SP, true, builder, expr)); for field in fields { let name = cx.expr_lit(field.span, ast::LitKind::Str(field.name.unwrap().name, ast::StrStyle::Cooked)); // Use double indirection to make sure this works for unsized types let field = cx.expr_addr_of(field.span, field.self_.clone()); let field = cx.expr_addr_of(field.span, field); let expr = cx.expr_method_call(span, builder_expr.clone(), Ident::from_str("field"), vec![name, field]); stmts.push(stmt_let_undescore(cx, span, expr)); } } } let expr = cx.expr_method_call(span, builder_expr, Ident::from_str("finish"), vec![]); stmts.push(cx.stmt_expr(expr)); let block = cx.block(span, stmts); cx.expr_block(block) } fn stmt_let_undescore(cx: &mut ExtCtxt<'_>, sp: Span, expr: P) -> ast::Stmt { let local = P(ast::Local { pat: cx.pat_wild(sp), ty: None, init: Some(expr), id: ast::DUMMY_NODE_ID, span: sp, attrs: ThinVec::new(), }); ast::Stmt { id: ast::DUMMY_NODE_ID, node: ast::StmtKind::Local(local), span: sp, } }